ITBO20110231A1 - FEEDING SYSTEM FOR DENTAL UNITS - Google Patents

Description

DESCRIPTION

of industrial invention entitled:

POWER SYSTEM FOR

DENTAL UNITS

The present invention refers to the technical field of dental units, and more particularly to systems for feeding the instruments for the moving parts of the dental unit (chair with headrest, dentist's tablet, operating light, x-ray, etc.). These moving parts are moved during therapeutic operations to bring them to a height that is as ergonomic and comfortable as possible for dental operators. These moving parts require an adequate power supply which can include: compressed air, water, electricity, digital signals (eg CAN Bus), video signals.

The power supply system that carries the above-mentioned signals is subject to a movement corresponding to that of the portion of the dental unit that is moved. This means that it is necessary to provide a sufficiently long feeding system to allow the complete excursion of the mobile part from the proximal to the distal position. When the mobile part is brought into the proximal position, the feeding system tends to get tangled or arrange itself in a disorderly manner inside the casing that contains it. It is therefore necessary to provide an adequate space inside the casing for the richness of the power supply system, which leads to more bulky casings. Furthermore, this generates problems for the feeding system itself, which risks tearing when it is brought to the maximum extension, and also wearing out due to the generation of friction with the adjacent portions. The mechanical impact of the power supply system which is arranged randomly inside the crankcase against microswitches also arranged inside the crankcase can then lead to malfunctions and breakdowns due to the unwanted activation of the microswitches.

The present invention has the task of providing a power supply system which includes all the users, solves the above problems, which is long-lasting, compact and constant, and simple and economical to produce.

The task is solved by spiraling the power system; this feeding system is housed inside a suitable housing for the spiral. The present invention will be described below for a particular embodiment thereof with the help of the following figures, which show:

Figure 1 is a schematic perspective view of a dental unit which houses the preferred embodiment of the feeding system of the present invention, in which the invention is housed inside a telescopic arm;

Figure 2 view of the internal part of the telescopic arm in the position of minimum extension (low limit stop);

Figure 3 view of the internal part of the telescopic arm in the position of maximum extension (high limit stop);

Figure 4 section of the spiral feeding system. In the embodiment illustrated in the figures, the present invention is applied to a dentist's board which houses various instruments. The instruments placed on the dentistâ € ™ s tablet are well known in the art: purely by way of example, we can mention micromotor, turbine, air / water syringe, scaler for tartar, camera, curing lamp, electric scalpel.

The dentist's board that houses the instruments is moved during the therapeutic operations to adapt its position in the best possible way to the dentistâ € ™ s working position. The tablet can be placed in a maximum and minimum height position with respect to the ground and in all intermediate positions between these.

In Figure 1, 1 indicates a dental unit as a whole, 16 indicates the water unit, 2 indicates the dentistâ € ™ s tablet, which undergoes vertical movement with respect to the patient chair 3, which in turn is mobile with respect to the ground. The dentist's module dental instruments are indicated with 17. The dentist's module 2 is attached to the dental chair 3 by means of an arm 4. The vertical movement of the dentist's module 2 with respect to the ground can take place in two ways: or by moving the dental chair 3 with which it is integral with, or, when the chair 3 is stationary, the telescopic arm 5 can be extended / retracted in order to modify the height of the tablet 2 with respect to the chair 3.

In Figure 2 and Figure 3, the removal of a part of the casing of the telescopic arm 5 makes visible the spiral feeding system 6 placed inside its housing. In Figure 2 the spiral feeding system 6 is shown in the position of maximum compression (dentist's board in the proximal position), while in Figure 3 the spiral feeding system 6 is shown in the position of maximum elongation (dentist's board in the distal position) .

The spiral power supply system 6 can carry all types of power supplies necessary for the operation of the instruments placed on the dentist's board: compressed air, water, electric current, digital signals, video signals. The function of the spiral power supply system 6 consists in bringing all the power supplies mentioned above from the connections to the mains contained in the floor box 7, to the dentist's board 2, where then the single power supplies are divided into the various instruments 17 according to need. At the same time, again through the same power supply system 6, the digital signals can travel in both directions: from the dentist's board 2 to one or more nodes of the CAN system, or from one of the nodes of the CAN system to the dentist's board 2. The signals videos, on the other hand, generated by the camera placed on the dentist's board, travel towards the floor box 7.

Figure 4 shows a section of the spiral feeding system 6. The portion visible from the outside consists of a 1.15 mm thick sheath 8 in matt black polyurethane with a low coefficient of friction. Proceeding towards the inside, one encounters a sheath 9 in black polyurethane with a thickness of 0.5 mm and then a sock 10 in TNT tape for containing the cables before they are sheathed.

The tubes / cables carrying the various power supplies are contained inside the sock 10. For example, there is a polyether tube 11 with dimensions 4x6 mm which brings the compressed air to 6 bar, a polyether tube 12 with dimensions 1.6x3.17 mm which brings the compressed air to 3 bar, a polyether tube 13 with dimensions 1.6x3.17 mm which brings the water to 2.5 bar. There are also several electrical conductors 14 with different sections for the power supply of the instruments, as well as electrical conductors 15 for digital signals (for example CAN Bus), and also for video transmission signals.

A further embodiment (not shown) of the present invention relates to units with a water unit on the ground and a suspended chair that moves in height with respect to the ground. Commercially, this type of unit is called â € œcolumnâ € or with water on the ground. In some cases, the headrest may be equipped with a pneumatic actuator. The chair must be powered by water with an electric cable, a cable leading to a digital signal and a hose for the supply of compressed air. The feeding system of the present invention can therefore be advantageously placed inside the water unit to optimize the spaces and avoid the above mentioned inconveniences.

In a further embodiment (not shown) the feeding system object of the invention can also be placed inside a pantograph arm for moving the dentist's board.

In another embodiment (not shown) the feeding system object of the invention can be placed inside an independent cart that houses the dental instruments physically separated from the patient chair. The cart is normally connected to the floor box by means of an "umbilical cord" which carries all the users to the dental instruments. Normally the cart has an excursion in height of the instrument support which is obtained thanks to a telescopic arm or to another type of mechanism. Also in this case the present invention can be advantageously used to optimize the spaces inside the cart and avoid wear or breakdown problems.

From the foregoing it is evident that the power supply system has a modular constitution that can range from a minimum configuration that contains at least an electric cable, a pneumatic duct and a digital signal cable to a maximum configuration that contains at least one pneumatic duct, a hydraulic conduit, at least one electrical conductor, at least one digital signal conductor and one video signal conductor, with all possible intermediate combinations.

Claims (10)

CLAIMS 1. Power supply system (6) for a dental unit (1), comprising a chair (3) for a patient, a water unit (16), a dentist's tablet (2) for instruments (17), the power supply system (6 ) comprising at least one conductor for the electrical power supply, at least one conductor for digital signals, at least one pneumatic duct, characterized by the fact of be coiled and the fact that digital signals can travel in both directions. Feeding system (6) according to claim 1, further comprising a hose for the water supply. Power supply system (6) according to claim 1 or 2, further comprising a cable for conducting video signals. Feeding system (6) according to claims 1 to 3, wherein the outermost sheath (8) is made of a material with a low coefficient of friction. 5. Power supply system (6) according to claims 1 to 3, in which the assembly of the user conductors is covered by a braid (10) interposed between the conductors themselves (11, 12, 13, 14, 15 ) and the material that forms the outermost sheath (8, 9). 6. Feeding system (6) according to claim 2, in which the pipes carrying the water and the compressed air are able to withstand operating pressures up to 6-12 bar. Feeding system according to one of claims 1 to 6, wherein the spiral feeding system (6) is contained inside a telescopic arm (5). Feeding system according to one of claims 1 to 6, wherein the spiral feeding system (6) is contained inside a scissor arm. Feeding system according to one of claims 1 to 6, wherein the spiral feeding system (6) is contained within the water unit (16). 10. Dental unit (1) comprising a feeding system (6) according to what is described from claim 1 to claim 9.